November 20, 2014 — In a special InvestorIntel interview, Tracy Weslosky, Editor-in-Chief and Publisher for InvestorIntel interviews Randy Scott, President, CEO and Director of Rare Element Resources Ltd. (NYSE MKT: REE | TSX: RES) about their recent series of news releases, including but not limited to the patent-pending technology and their recent trenching program with assays results.
Tracy Weslosky: Now you've had a couple of major milestones here in the last month. I think what I'd like to start with is you recent filed an application for a provisional U.S. patent on the technology for the selective precipitation and the process to --- technology to extract cerium and thorium. Did I get that correct?
Randy Scott: Yes, that's correct. That's actually one of two patents that we filed over the last month or so now.
Tracy Weslosky: Why would a company need to file a patent on the processing technology?
Randy Scott: The processing, particularly the separation side of things, is very competitive. We've been spending a lot of time and a lot of money trying to look at adding value to our concentrates, which we think we've done nicely with the pure concentrate we're producing, but because of that we wanted to look at going up the value chain and further separating the products. We've had test work underway now for a couple of three months to try to evaluate how our concentrates would perform if we develop technology to further separate them.
Tracy Weslosky: Of course this goes hand in hand with your assay results that you also just put out. Maybe you can explain what these results were.
Randy Scott: From a separation side, we've been able to develop technology that is able to remove cerium and thorium in one selective precipitation step. Then we followed that with the ability to do solvent extraction, but only one or two stages of solvent extraction, to look at further purifying the material and actually separating the rare earths into light rare earths.
Tracy Weslosky: And of course you're building--- you have plans for a large-scale demonstration plant. Is this correct?
Randy Scott: We've moved forward with that as well. You know, as a result of the preliminary feasibility study and the multiple pilot plants that we've done on the project we felt that it was a good time to look at moving up into even a larger scale production, almost commercial production facility. What we've done is we've gone out this summer and taken a 1,000 ton sample from a near surface exposure of our high-grade material. This is where the preliminary feasibility study has the initial mining starting. We wanted to be able to confirm these high-grade zones. We were able to do that by trenching approximately 225 feet and then sampling that as well. We were very pleased by the average grade of 10.1% for that 1,000 tons that came back for us.
To hear the rest of the interview, click here
Disclaimer: Rare Element Resources Ltd. (NYSE MKT: REE | TSX: RES) is an advertorial member of InvestorIntel.

https://www.berkeleynucleonics.com/cerium-bromide
A quick setup with room-temperature detectors allows users to begin nuclear spectroscopy right away. The CeBr3 detector shown in this video represents the latest room-temperature (does not require cooling) detector to offer excellent peak resolution, large volume crystals and linear response through a wide energy range. Also, there is no contamination peak to be compensated for (contamination peaks such as Lanthanum create some post processing requirements).
CeBr3 Important Technical Specifications
* Density 5.2g/cc
* Max Emission: 380nm
* Decay: 12-20ns
* Size: Custom to 76mm dia, 102mm length
The MCA used in this video is a standard tube-base MCA with a 13 PIN connection to the detector. The MCA includes spectroscopy software and is powered over USB.

Uranium enrichment has been in the headlines lately - but what does it mean exactly?
More links in description below ↓↓↓
SupportPeriodic Videos on Patreon: https://www.patreon.com/periodicvideos
A video on every element: http://bit.ly/118elements
More at http://www.periodicvideos.com/
Follow us on Facebook at http://www.facebook.com/periodicvideos
And on Twitter at http://twitter.com/periodicvideos
From the School of Chemistry at The University of Nottingham: http://bit.ly/NottChem
Periodic Videos films are by video journalist Brady Haran: http://www.bradyharanblog.com
JoinBrady's mailing list for updates and extra stuff --- http://eepurl.com/YdjL9

published:28 Sep 2009

views:263695

Rare earth mine Process and equipments,Rare earth ore beneficiation
http://www.sbmmine.com/case/non-metal-mineral-processing/Rare-earth-mine-Process.php
The bastnäsite ore was finely ground, and subjected to froth flotation to separate the bulk of the bastnäsite from the accompanying barite, calcite, and dolomite. Marketable products include each of the major intermediates of the ore dressing process: flotation concentrate, acid-washed flotation concentrate, calcined acid-washed bastnäsite, and finally a cerium concentrate, which was the insoluble residue left after the calcined bastnäsite had been leached with hydrochloric acid.

published:12 Sep 2012

views:227

Sensual Glass, We pride ourselves in creating wonderful hand crafted British made cast glass. The sensual qualities of glass offer a unique smoothness with a luxurious feel.These intimate works of art are as beautiful on display as they are to the touch.

The cerium oxide–cerium oxide cycle or CeO2/Ce2O3 cycle is a two-step thermochemical process that employs cerium oxide and cerium oxide for hydrogen production.The cerium-based cycle allows the separation of H2 and O2 in two steps, making high-temperature gas separation redundant.
This channel is dedicated to make Wikipedia, one of the biggest knowledge databases in the world available to people with limited vision.
Article available under a Creative Commons licenseImage source in video

published:04 Sep 2016

views:88

In this video, Mark demonstrates how to grind a cast glass block from a 60 grit electroplated diamond disk all the way to a final polish with cerium oxide on a polishing disk. Demonstrating techniques and processes that will assist you in better understanding how to grind and polish with diamond disks.
Find more information on using diamond tools for coldworking your glass at http://www.hisglassworks.com

published:12 Nov 2014

views:28135

Mineral processing

History

Before the advent of heavy machinery the raw ore was broken up using hammers wielded by hand, a process called "spalling". Before long, mechanical means were found to achieve this. For instance, stamp mills were used in Samarkand as early as 973. They were also in use in medieval Persia. By the 11th century, stamp mills were in widespread use throughout the medieval Islamic world, from Islamic Spain and North Africa in the west to Central Asia in the east. A later example was the Cornish stamps, consisting of a series of iron hammers mounted in a vertical frame, raised by cams on the shaft of a waterwheel and falling onto the ore under gravity.

The simplest method of separating ore from gangue consists of picking out the individual crystals of each. This is a very tedious process, particularly when the individual particles are small. Another comparatively simple method relies on the various minerals having different densities, causing them to collect in different places: metallic minerals (being heavier) will drop out of suspension more quickly than lighter ones, which will be carried further by a stream of water. The process of panning and sifting for gold uses both of these methods. Various devices known as 'buddles' were used to take advantage of this property. Later, more advanced machines were used such as the Frue vanner, invented in 1874.

Magnetic separation

Magnetic separation is a process in which magnetically susceptible material is extracted from a mixture using a magnetic force. This separation technique can be useful in mining iron as it is attracted to a magnet.
In mines where wolframite was mixed with cassiterite, such as South Crofty and East Pool mine in Cornwall or with bismuth such as at the Shepherd and Murphy mine in Moina, Tasmania, magnetic separation was used to separate the ores. At these mines a device called a Wetherill's Magnetic Separator (invented by John Price Wetherill, 1844–1906) was used. In this machine the raw ore, after calcination was fed onto a moving belt which passed underneath two pairs of electromagnets under which further belts ran at right angles to the feed belt. The first pair of electromagnets was weakly magnetised and served to draw off any iron ore present. The second pair were strongly magnetised and attracted the wolframite, which is weakly magnetic. These machines were capable of treating 10 tons of ore a day.

November 20, 2014 — In a special InvestorIntel interview, Tracy Weslosky, Editor-in-Chief and Publisher for InvestorIntel interviews Randy Scott, President, CEO and Director of Rare Element Resources Ltd. (NYSE MKT: REE | TSX: RES) about their recent series of news releases, including but not limited to the patent-pending technology and their recent trenching program with assays results.
Tracy Weslosky: Now you've had a couple of major milestones here in the last month. I think what I'd like to start with is you recent filed an application for a provisional U.S. patent on the technology for the selective precipitation and the process to --- technology to extract cerium and thorium. Did I get that correct?
Randy Scott: Yes, that's correct. That's actually one of two patents that we filed over the last month or so now.
Tracy Weslosky: Why would a company need to file a patent on the processing technology?
Randy Scott: The processing, particularly the separation side of things, is very competitive. We've been spending a lot of time and a lot of money trying to look at adding value to our concentrates, which we think we've done nicely with the pure concentrate we're producing, but because of that we wanted to look at going up the value chain and further separating the products. We've had test work underway now for a couple of three months to try to evaluate how our concentrates would perform if we develop technology to further separate them.
Tracy Weslosky: Of course this goes hand in hand with your assay results that you also just put out. Maybe you can explain what these results were.
Randy Scott: From a separation side, we've been able to develop technology that is able to remove cerium and thorium in one selective precipitation step. Then we followed that with the ability to do solvent extraction, but only one or two stages of solvent extraction, to look at further purifying the material and actually separating the rare earths into light rare earths.
Tracy Weslosky: And of course you're building--- you have plans for a large-scale demonstration plant. Is this correct?
Randy Scott: We've moved forward with that as well. You know, as a result of the preliminary feasibility study and the multiple pilot plants that we've done on the project we felt that it was a good time to look at moving up into even a larger scale production, almost commercial production facility. What we've done is we've gone out this summer and taken a 1,000 ton sample from a near surface exposure of our high-grade material. This is where the preliminary feasibility study has the initial mining starting. We wanted to be able to confirm these high-grade zones. We were able to do that by trenching approximately 225 feet and then sampling that as well. We were very pleased by the average grade of 10.1% for that 1,000 tons that came back for us.
To hear the rest of the interview, click here
Disclaimer: Rare Element Resources Ltd. (NYSE MKT: REE | TSX: RES) is an advertorial member of InvestorIntel.

Cerium Bromide | CeBr3 Detector Demonstration | Berkeley Nucleonics

https://www.berkeleynucleonics.com/cerium-bromide
A quick setup with room-temperature detectors allows users to begin nuclear spectroscopy right away. The CeBr3 detector shown in this video represents the latest room-temperature (does not require cooling) detector to offer excellent peak resolution, large volume crystals and linear response through a wide energy range. Also, there is no contamination peak to be compensated for (contamination peaks such as Lanthanum create some post processing requirements).
CeBr3 Important Technical Specifications
* Density 5.2g/cc
* Max Emission: 380nm
* Decay: 12-20ns
* Size: Custom to 76mm dia, 102mm length
The MCA used in this video is a standard tube-base MCA with a 13 PIN connection to the detector. The MCA includes spectroscopy software and is powered over USB.

How to enrich Uranium - Periodic Table of Videos

Uranium enrichment has been in the headlines lately - but what does it mean exactly?
More links in description below ↓↓↓
SupportPeriodic Videos on Patreon: https://www.patreon.com/periodicvideos
A video on every element: http://bit.ly/118elements
More at http://www.periodicvideos.com/
Follow us on Facebook at http://www.facebook.com/periodicvideos
And on Twitter at http://twitter.com/periodicvideos
From the School of Chemistry at The University of Nottingham: http://bit.ly/NottChem
Periodic Videos films are by video journalist Brady Haran: http://www.bradyharanblog.com
JoinBrady's mailing list for updates and extra stuff --- http://eepurl.com/YdjL9

1:22

Rare earth mine Process and equipments,Rare earth ore beneficiation

Rare earth mine Process and equipments,Rare earth ore beneficiation

Rare earth mine Process and equipments,Rare earth ore beneficiation

Rare earth mine Process and equipments,Rare earth ore beneficiation
http://www.sbmmine.com/case/non-metal-mineral-processing/Rare-earth-mine-Process.php
The bastnäsite ore was finely ground, and subjected to froth flotation to separate the bulk of the bastnäsite from the accompanying barite, calcite, and dolomite. Marketable products include each of the major intermediates of the ore dressing process: flotation concentrate, acid-washed flotation concentrate, calcined acid-washed bastnäsite, and finally a cerium concentrate, which was the insoluble residue left after the calcined bastnäsite had been leached with hydrochloric acid.

1:34

Hot Processing Sensual Glass

Hot Processing Sensual Glass

Hot Processing Sensual Glass

Sensual Glass, We pride ourselves in creating wonderful hand crafted British made cast glass. The sensual qualities of glass offer a unique smoothness with a luxurious feel.These intimate works of art are as beautiful on display as they are to the touch.

Cerium(IV) oxide–cerium(III) oxide cycle

The cerium oxide–cerium oxide cycle or CeO2/Ce2O3 cycle is a two-step thermochemical process that employs cerium oxide and cerium oxide for hydrogen production.The cerium-based cycle allows the separation of H2 and O2 in two steps, making high-temperature gas separation redundant.
This channel is dedicated to make Wikipedia, one of the biggest knowledge databases in the world available to people with limited vision.
Article available under a Creative Commons licenseImage source in video

24:14

Grinding a block of glass from rough grind to final polish

Grinding a block of glass from rough grind to final polish

Grinding a block of glass from rough grind to final polish

In this video, Mark demonstrates how to grind a cast glass block from a 60 grit electroplated diamond disk all the way to a final polish with cerium oxide on a polishing disk. Demonstrating techniques and processes that will assist you in better understanding how to grind and polish with diamond disks.
Find more information on using diamond tools for coldworking your glass at http://www.hisglassworks.com

15:37

Webinar Wednesday Cerium Services Snapshot

Webinar Wednesday Cerium Services Snapshot

Webinar Wednesday Cerium Services Snapshot

Join Vicky Winslow, Cerium’s Director of Support Services for an in depth look at Cerium Networks’ support offerings, an entire spectrum of business services aimed at augmenting your own technical capabilities. Whether the need is for on-going, day-2 support or a custom managed service agreement, Cerium has the right tools, processes, and people to support you.

24:14

Grinding a glass block from rough grind to final polish

Grinding a glass block from rough grind to final polish

Grinding a glass block from rough grind to final polish

In this video, Mark demonstrates how to grind a cast glass block from a 60 grit electroplated diamond disk all the way to a final polish with cerium oxide. Showing techniques and process tips from grit to grit, this is an excellent way to get a feel for how to grind glass with diamond disks through to a polish.
Visithttp://www.hisglassworks.com for more information on how to use diamond disks to grind and polish your glass surfaces

November 20, 2014 — In a special InvestorIntel interview, Tracy Weslosky, Editor-in-Chief and Publisher for InvestorIntel interviews Randy Scott, President, CEO and Director of Rare Element Resources Ltd. (NYSE MKT: REE | TSX: RES) about their recent series of news releases, including but not limited to the patent-pending technology and their recent trenching program with assays results.
Tracy Weslosky: Now you've had a couple of major milestones here in the last month. I think what I'd like to start with is you recent filed an application for a provisional U.S. patent on the technology for the selective precipitation and the process to --- technology to extract cerium and thorium. Did I get that correct?
Randy Scott: Yes, that's correct. That's actually one of two patents that we filed ...

Cerium Bromide | CeBr3 Detector Demonstration | Berkeley Nucleonics

https://www.berkeleynucleonics.com/cerium-bromide
A quick setup with room-temperature detectors allows users to begin nuclear spectroscopy right away. The CeBr3 detector shown in this video represents the latest room-temperature (does not require cooling) detector to offer excellent peak resolution, large volume crystals and linear response through a wide energy range. Also, there is no contamination peak to be compensated for (contamination peaks such as Lanthanum create some post processing requirements).
CeBr3 Important Technical Specifications
* Density 5.2g/cc
* Max Emission: 380nm
* Decay: 12-20ns
* Size: Custom to 76mm dia, 102mm length
The MCA used in this video is a standard tube-base MCA with a 13 PIN connection to the detector. The MCA includes spectroscopy software and is po...

How to enrich Uranium - Periodic Table of Videos

Uranium enrichment has been in the headlines lately - but what does it mean exactly?
More links in description below ↓↓↓
SupportPeriodic Videos on Patreon: https://www.patreon.com/periodicvideos
A video on every element: http://bit.ly/118elements
More at http://www.periodicvideos.com/
Follow us on Facebook at http://www.facebook.com/periodicvideos
And on Twitter at http://twitter.com/periodicvideos
From the School of Chemistry at The University of Nottingham: http://bit.ly/NottChem
Periodic Videos films are by video journalist Brady Haran: http://www.bradyharanblog.com
JoinBrady's mailing list for updates and extra stuff --- http://eepurl.com/YdjL9

published: 28 Sep 2009

Rare earth mine Process and equipments,Rare earth ore beneficiation

Rare earth mine Process and equipments,Rare earth ore beneficiation
http://www.sbmmine.com/case/non-metal-mineral-processing/Rare-earth-mine-Process.php
The bastnäsite ore was finely ground, and subjected to froth flotation to separate the bulk of the bastnäsite from the accompanying barite, calcite, and dolomite. Marketable products include each of the major intermediates of the ore dressing process: flotation concentrate, acid-washed flotation concentrate, calcined acid-washed bastnäsite, and finally a cerium concentrate, which was the insoluble residue left after the calcined bastnäsite had been leached with hydrochloric acid.

published: 12 Sep 2012

Hot Processing Sensual Glass

Sensual Glass, We pride ourselves in creating wonderful hand crafted British made cast glass. The sensual qualities of glass offer a unique smoothness with a luxurious feel.These intimate works of art are as beautiful on display as they are to the touch.

Titanium Manufacturing Process

gravity separation mineral processing plant prices

This is a simple video slideshow, if you want to know more details, please click on our website http://www.gospellightbaptistschool.com , we will provide a professional answer and quality of services. If this video does not meet your needs I apologize here.
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http://www.gospellightbaptistschool.com/chat.htmlMagnetic SeparationMachine, Mineral processingHome ? Products ? Mineral Processing Plants ? Magnetic Separation Machine ? Magnetic Separation Machine List. LimestoneImpact Crushing Equipment Price; Industrial Plants, Gold Processing Plant, Chemical PlantStar trace offers turnkey solutions for bauxite ore processing plants. we are one of the leading project suppliers for bauxite ore plants and we work clos...

published: 26 Aug 2016

Cerium(IV) oxide–cerium(III) oxide cycle

The cerium oxide–cerium oxide cycle or CeO2/Ce2O3 cycle is a two-step thermochemical process that employs cerium oxide and cerium oxide for hydrogen production.The cerium-based cycle allows the separation of H2 and O2 in two steps, making high-temperature gas separation redundant.
This channel is dedicated to make Wikipedia, one of the biggest knowledge databases in the world available to people with limited vision.
Article available under a Creative Commons licenseImage source in video

published: 04 Sep 2016

Grinding a block of glass from rough grind to final polish

In this video, Mark demonstrates how to grind a cast glass block from a 60 grit electroplated diamond disk all the way to a final polish with cerium oxide on a polishing disk. Demonstrating techniques and processes that will assist you in better understanding how to grind and polish with diamond disks.
Find more information on using diamond tools for coldworking your glass at http://www.hisglassworks.com

published: 12 Nov 2014

Webinar Wednesday Cerium Services Snapshot

Join Vicky Winslow, Cerium’s Director of Support Services for an in depth look at Cerium Networks’ support offerings, an entire spectrum of business services aimed at augmenting your own technical capabilities. Whether the need is for on-going, day-2 support or a custom managed service agreement, Cerium has the right tools, processes, and people to support you.

published: 17 Feb 2016

Grinding a glass block from rough grind to final polish

In this video, Mark demonstrates how to grind a cast glass block from a 60 grit electroplated diamond disk all the way to a final polish with cerium oxide. Showing techniques and process tips from grit to grit, this is an excellent way to get a feel for how to grind glass with diamond disks through to a polish.
Visithttp://www.hisglassworks.com for more information on how to use diamond disks to grind and polish your glass surfaces

November 20, 2014 — In a special InvestorIntel interview, Tracy Weslosky, Editor-in-Chief and Publisher for InvestorIntel interviews Randy Scott, President, CEO and Director of Rare Element Resources Ltd. (NYSE MKT: REE | TSX: RES) about their recent series of news releases, including but not limited to the patent-pending technology and their recent trenching program with assays results.
Tracy Weslosky: Now you've had a couple of major milestones here in the last month. I think what I'd like to start with is you recent filed an application for a provisional U.S. patent on the technology for the selective precipitation and the process to --- technology to extract cerium and thorium. Did I get that correct?
Randy Scott: Yes, that's correct. That's actually one of two patents that we filed over the last month or so now.
Tracy Weslosky: Why would a company need to file a patent on the processing technology?
Randy Scott: The processing, particularly the separation side of things, is very competitive. We've been spending a lot of time and a lot of money trying to look at adding value to our concentrates, which we think we've done nicely with the pure concentrate we're producing, but because of that we wanted to look at going up the value chain and further separating the products. We've had test work underway now for a couple of three months to try to evaluate how our concentrates would perform if we develop technology to further separate them.
Tracy Weslosky: Of course this goes hand in hand with your assay results that you also just put out. Maybe you can explain what these results were.
Randy Scott: From a separation side, we've been able to develop technology that is able to remove cerium and thorium in one selective precipitation step. Then we followed that with the ability to do solvent extraction, but only one or two stages of solvent extraction, to look at further purifying the material and actually separating the rare earths into light rare earths.
Tracy Weslosky: And of course you're building--- you have plans for a large-scale demonstration plant. Is this correct?
Randy Scott: We've moved forward with that as well. You know, as a result of the preliminary feasibility study and the multiple pilot plants that we've done on the project we felt that it was a good time to look at moving up into even a larger scale production, almost commercial production facility. What we've done is we've gone out this summer and taken a 1,000 ton sample from a near surface exposure of our high-grade material. This is where the preliminary feasibility study has the initial mining starting. We wanted to be able to confirm these high-grade zones. We were able to do that by trenching approximately 225 feet and then sampling that as well. We were very pleased by the average grade of 10.1% for that 1,000 tons that came back for us.
To hear the rest of the interview, click here
Disclaimer: Rare Element Resources Ltd. (NYSE MKT: REE | TSX: RES) is an advertorial member of InvestorIntel.

November 20, 2014 — In a special InvestorIntel interview, Tracy Weslosky, Editor-in-Chief and Publisher for InvestorIntel interviews Randy Scott, President, CEO and Director of Rare Element Resources Ltd. (NYSE MKT: REE | TSX: RES) about their recent series of news releases, including but not limited to the patent-pending technology and their recent trenching program with assays results.
Tracy Weslosky: Now you've had a couple of major milestones here in the last month. I think what I'd like to start with is you recent filed an application for a provisional U.S. patent on the technology for the selective precipitation and the process to --- technology to extract cerium and thorium. Did I get that correct?
Randy Scott: Yes, that's correct. That's actually one of two patents that we filed over the last month or so now.
Tracy Weslosky: Why would a company need to file a patent on the processing technology?
Randy Scott: The processing, particularly the separation side of things, is very competitive. We've been spending a lot of time and a lot of money trying to look at adding value to our concentrates, which we think we've done nicely with the pure concentrate we're producing, but because of that we wanted to look at going up the value chain and further separating the products. We've had test work underway now for a couple of three months to try to evaluate how our concentrates would perform if we develop technology to further separate them.
Tracy Weslosky: Of course this goes hand in hand with your assay results that you also just put out. Maybe you can explain what these results were.
Randy Scott: From a separation side, we've been able to develop technology that is able to remove cerium and thorium in one selective precipitation step. Then we followed that with the ability to do solvent extraction, but only one or two stages of solvent extraction, to look at further purifying the material and actually separating the rare earths into light rare earths.
Tracy Weslosky: And of course you're building--- you have plans for a large-scale demonstration plant. Is this correct?
Randy Scott: We've moved forward with that as well. You know, as a result of the preliminary feasibility study and the multiple pilot plants that we've done on the project we felt that it was a good time to look at moving up into even a larger scale production, almost commercial production facility. What we've done is we've gone out this summer and taken a 1,000 ton sample from a near surface exposure of our high-grade material. This is where the preliminary feasibility study has the initial mining starting. We wanted to be able to confirm these high-grade zones. We were able to do that by trenching approximately 225 feet and then sampling that as well. We were very pleased by the average grade of 10.1% for that 1,000 tons that came back for us.
To hear the rest of the interview, click here
Disclaimer: Rare Element Resources Ltd. (NYSE MKT: REE | TSX: RES) is an advertorial member of InvestorIntel.

https://www.berkeleynucleonics.com/cerium-bromide
A quick setup with room-temperature detectors allows users to begin nuclear spectroscopy right away. The CeBr3 detector shown in this video represents the latest room-temperature (does not require cooling) detector to offer excellent peak resolution, large volume crystals and linear response through a wide energy range. Also, there is no contamination peak to be compensated for (contamination peaks such as Lanthanum create some post processing requirements).
CeBr3 Important Technical Specifications
* Density 5.2g/cc
* Max Emission: 380nm
* Decay: 12-20ns
* Size: Custom to 76mm dia, 102mm length
The MCA used in this video is a standard tube-base MCA with a 13 PIN connection to the detector. The MCA includes spectroscopy software and is powered over USB.

https://www.berkeleynucleonics.com/cerium-bromide
A quick setup with room-temperature detectors allows users to begin nuclear spectroscopy right away. The CeBr3 detector shown in this video represents the latest room-temperature (does not require cooling) detector to offer excellent peak resolution, large volume crystals and linear response through a wide energy range. Also, there is no contamination peak to be compensated for (contamination peaks such as Lanthanum create some post processing requirements).
CeBr3 Important Technical Specifications
* Density 5.2g/cc
* Max Emission: 380nm
* Decay: 12-20ns
* Size: Custom to 76mm dia, 102mm length
The MCA used in this video is a standard tube-base MCA with a 13 PIN connection to the detector. The MCA includes spectroscopy software and is powered over USB.

Uranium enrichment has been in the headlines lately - but what does it mean exactly?
More links in description below ↓↓↓
SupportPeriodic Videos on Patreon: https://www.patreon.com/periodicvideos
A video on every element: http://bit.ly/118elements
More at http://www.periodicvideos.com/
Follow us on Facebook at http://www.facebook.com/periodicvideos
And on Twitter at http://twitter.com/periodicvideos
From the School of Chemistry at The University of Nottingham: http://bit.ly/NottChem
Periodic Videos films are by video journalist Brady Haran: http://www.bradyharanblog.com
JoinBrady's mailing list for updates and extra stuff --- http://eepurl.com/YdjL9

Uranium enrichment has been in the headlines lately - but what does it mean exactly?
More links in description below ↓↓↓
SupportPeriodic Videos on Patreon: https://www.patreon.com/periodicvideos
A video on every element: http://bit.ly/118elements
More at http://www.periodicvideos.com/
Follow us on Facebook at http://www.facebook.com/periodicvideos
And on Twitter at http://twitter.com/periodicvideos
From the School of Chemistry at The University of Nottingham: http://bit.ly/NottChem
Periodic Videos films are by video journalist Brady Haran: http://www.bradyharanblog.com
JoinBrady's mailing list for updates and extra stuff --- http://eepurl.com/YdjL9

Rare earth mine Process and equipments,Rare earth ore beneficiation
http://www.sbmmine.com/case/non-metal-mineral-processing/Rare-earth-mine-Process.php
The bastnäsite ore was finely ground, and subjected to froth flotation to separate the bulk of the bastnäsite from the accompanying barite, calcite, and dolomite. Marketable products include each of the major intermediates of the ore dressing process: flotation concentrate, acid-washed flotation concentrate, calcined acid-washed bastnäsite, and finally a cerium concentrate, which was the insoluble residue left after the calcined bastnäsite had been leached with hydrochloric acid.

Rare earth mine Process and equipments,Rare earth ore beneficiation
http://www.sbmmine.com/case/non-metal-mineral-processing/Rare-earth-mine-Process.php
The bastnäsite ore was finely ground, and subjected to froth flotation to separate the bulk of the bastnäsite from the accompanying barite, calcite, and dolomite. Marketable products include each of the major intermediates of the ore dressing process: flotation concentrate, acid-washed flotation concentrate, calcined acid-washed bastnäsite, and finally a cerium concentrate, which was the insoluble residue left after the calcined bastnäsite had been leached with hydrochloric acid.

Hot Processing Sensual Glass

Sensual Glass, We pride ourselves in creating wonderful hand crafted British made cast glass. The sensual qualities of glass offer a unique smoothness with a lu...

Sensual Glass, We pride ourselves in creating wonderful hand crafted British made cast glass. The sensual qualities of glass offer a unique smoothness with a luxurious feel.These intimate works of art are as beautiful on display as they are to the touch.

Sensual Glass, We pride ourselves in creating wonderful hand crafted British made cast glass. The sensual qualities of glass offer a unique smoothness with a luxurious feel.These intimate works of art are as beautiful on display as they are to the touch.

Cerium(IV) oxide–cerium(III) oxide cycle

The cerium oxide–cerium oxide cycle or CeO2/Ce2O3 cycle is a two-step thermochemical process that employs cerium oxide and cerium oxide for hydrogen production....

The cerium oxide–cerium oxide cycle or CeO2/Ce2O3 cycle is a two-step thermochemical process that employs cerium oxide and cerium oxide for hydrogen production.The cerium-based cycle allows the separation of H2 and O2 in two steps, making high-temperature gas separation redundant.
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Article available under a Creative Commons licenseImage source in video

The cerium oxide–cerium oxide cycle or CeO2/Ce2O3 cycle is a two-step thermochemical process that employs cerium oxide and cerium oxide for hydrogen production.The cerium-based cycle allows the separation of H2 and O2 in two steps, making high-temperature gas separation redundant.
This channel is dedicated to make Wikipedia, one of the biggest knowledge databases in the world available to people with limited vision.
Article available under a Creative Commons licenseImage source in video

Grinding a block of glass from rough grind to final polish

In this video, Mark demonstrates how to grind a cast glass block from a 60 grit electroplated diamond disk all the way to a final polish with cerium oxide on a ...

In this video, Mark demonstrates how to grind a cast glass block from a 60 grit electroplated diamond disk all the way to a final polish with cerium oxide on a polishing disk. Demonstrating techniques and processes that will assist you in better understanding how to grind and polish with diamond disks.
Find more information on using diamond tools for coldworking your glass at http://www.hisglassworks.com

In this video, Mark demonstrates how to grind a cast glass block from a 60 grit electroplated diamond disk all the way to a final polish with cerium oxide on a polishing disk. Demonstrating techniques and processes that will assist you in better understanding how to grind and polish with diamond disks.
Find more information on using diamond tools for coldworking your glass at http://www.hisglassworks.com

Webinar Wednesday Cerium Services Snapshot

Join Vicky Winslow, Cerium’s Director of Support Services for an in depth look at Cerium Networks’ support offerings, an entire spectrum of business services ai...

Join Vicky Winslow, Cerium’s Director of Support Services for an in depth look at Cerium Networks’ support offerings, an entire spectrum of business services aimed at augmenting your own technical capabilities. Whether the need is for on-going, day-2 support or a custom managed service agreement, Cerium has the right tools, processes, and people to support you.

Join Vicky Winslow, Cerium’s Director of Support Services for an in depth look at Cerium Networks’ support offerings, an entire spectrum of business services aimed at augmenting your own technical capabilities. Whether the need is for on-going, day-2 support or a custom managed service agreement, Cerium has the right tools, processes, and people to support you.

Grinding a glass block from rough grind to final polish

In this video, Mark demonstrates how to grind a cast glass block from a 60 grit electroplated diamond disk all the way to a final polish with cerium oxide. Show...

In this video, Mark demonstrates how to grind a cast glass block from a 60 grit electroplated diamond disk all the way to a final polish with cerium oxide. Showing techniques and process tips from grit to grit, this is an excellent way to get a feel for how to grind glass with diamond disks through to a polish.
Visithttp://www.hisglassworks.com for more information on how to use diamond disks to grind and polish your glass surfaces

In this video, Mark demonstrates how to grind a cast glass block from a 60 grit electroplated diamond disk all the way to a final polish with cerium oxide. Showing techniques and process tips from grit to grit, this is an excellent way to get a feel for how to grind glass with diamond disks through to a polish.
Visithttp://www.hisglassworks.com for more information on how to use diamond disks to grind and polish your glass surfaces

November 20, 2014 — In a special InvestorIntel interview, Tracy Weslosky, Editor-in-Chief and Publisher for InvestorIntel interviews Randy Scott, President, CEO and Director of Rare Element Resources Ltd. (NYSE MKT: REE | TSX: RES) about their recent series of news releases, including but not limited to the patent-pending technology and their recent trenching program with assays results.
Tracy Weslosky: Now you've had a couple of major milestones here in the last month. I think what I'd like to start with is you recent filed an application for a provisional U.S. patent on the technology for the selective precipitation and the process to --- technology to extract cerium and thorium. Did I get that correct?
Randy Scott: Yes, that's correct. That's actually one of two patents that we filed over the last month or so now.
Tracy Weslosky: Why would a company need to file a patent on the processing technology?
Randy Scott: The processing, particularly the separation side of things, is very competitive. We've been spending a lot of time and a lot of money trying to look at adding value to our concentrates, which we think we've done nicely with the pure concentrate we're producing, but because of that we wanted to look at going up the value chain and further separating the products. We've had test work underway now for a couple of three months to try to evaluate how our concentrates would perform if we develop technology to further separate them.
Tracy Weslosky: Of course this goes hand in hand with your assay results that you also just put out. Maybe you can explain what these results were.
Randy Scott: From a separation side, we've been able to develop technology that is able to remove cerium and thorium in one selective precipitation step. Then we followed that with the ability to do solvent extraction, but only one or two stages of solvent extraction, to look at further purifying the material and actually separating the rare earths into light rare earths.
Tracy Weslosky: And of course you're building--- you have plans for a large-scale demonstration plant. Is this correct?
Randy Scott: We've moved forward with that as well. You know, as a result of the preliminary feasibility study and the multiple pilot plants that we've done on the project we felt that it was a good time to look at moving up into even a larger scale production, almost commercial production facility. What we've done is we've gone out this summer and taken a 1,000 ton sample from a near surface exposure of our high-grade material. This is where the preliminary feasibility study has the initial mining starting. We wanted to be able to confirm these high-grade zones. We were able to do that by trenching approximately 225 feet and then sampling that as well. We were very pleased by the average grade of 10.1% for that 1,000 tons that came back for us.
To hear the rest of the interview, click here
Disclaimer: Rare Element Resources Ltd. (NYSE MKT: REE | TSX: RES) is an advertorial member of InvestorIntel.

Cerium Bromide | CeBr3 Detector Demonstration | Berkeley Nucleonics

https://www.berkeleynucleonics.com/cerium-bromide
A quick setup with room-temperature detectors allows users to begin nuclear spectroscopy right away. The CeBr3 detector shown in this video represents the latest room-temperature (does not require cooling) detector to offer excellent peak resolution, large volume crystals and linear response through a wide energy range. Also, there is no contamination peak to be compensated for (contamination peaks such as Lanthanum create some post processing requirements).
CeBr3 Important Technical Specifications
* Density 5.2g/cc
* Max Emission: 380nm
* Decay: 12-20ns
* Size: Custom to 76mm dia, 102mm length
The MCA used in this video is a standard tube-base MCA with a 13 PIN connection to the detector. The MCA includes spectroscopy software and is powered over USB.

How to enrich Uranium - Periodic Table of Videos

Uranium enrichment has been in the headlines lately - but what does it mean exactly?
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Rare earth mine Process and equipments,Rare earth ore beneficiation

Rare earth mine Process and equipments,Rare earth ore beneficiation
http://www.sbmmine.com/case/non-metal-mineral-processing/Rare-earth-mine-Process.php
The bastnäsite ore was finely ground, and subjected to froth flotation to separate the bulk of the bastnäsite from the accompanying barite, calcite, and dolomite. Marketable products include each of the major intermediates of the ore dressing process: flotation concentrate, acid-washed flotation concentrate, calcined acid-washed bastnäsite, and finally a cerium concentrate, which was the insoluble residue left after the calcined bastnäsite had been leached with hydrochloric acid.

Hot Processing Sensual Glass

Sensual Glass, We pride ourselves in creating wonderful hand crafted British made cast glass. The sensual qualities of glass offer a unique smoothness with a luxurious feel.These intimate works of art are as beautiful on display as they are to the touch.

Cerium(IV) oxide–cerium(III) oxide cycle

The cerium oxide–cerium oxide cycle or CeO2/Ce2O3 cycle is a two-step thermochemical process that employs cerium oxide and cerium oxide for hydrogen production.The cerium-based cycle allows the separation of H2 and O2 in two steps, making high-temperature gas separation redundant.
This channel is dedicated to make Wikipedia, one of the biggest knowledge databases in the world available to people with limited vision.
Article available under a Creative Commons licenseImage source in video

24:14

Grinding a block of glass from rough grind to final polish

In this video, Mark demonstrates how to grind a cast glass block from a 60 grit electropla...

Grinding a block of glass from rough grind to final polish

In this video, Mark demonstrates how to grind a cast glass block from a 60 grit electroplated diamond disk all the way to a final polish with cerium oxide on a polishing disk. Demonstrating techniques and processes that will assist you in better understanding how to grind and polish with diamond disks.
Find more information on using diamond tools for coldworking your glass at http://www.hisglassworks.com

15:37

Webinar Wednesday Cerium Services Snapshot

Join Vicky Winslow, Cerium’s Director of Support Services for an in depth look at Cerium N...

Webinar Wednesday Cerium Services Snapshot

Join Vicky Winslow, Cerium’s Director of Support Services for an in depth look at Cerium Networks’ support offerings, an entire spectrum of business services aimed at augmenting your own technical capabilities. Whether the need is for on-going, day-2 support or a custom managed service agreement, Cerium has the right tools, processes, and people to support you.

24:14

Grinding a glass block from rough grind to final polish

In this video, Mark demonstrates how to grind a cast glass block from a 60 grit electropla...

Grinding a glass block from rough grind to final polish

In this video, Mark demonstrates how to grind a cast glass block from a 60 grit electroplated diamond disk all the way to a final polish with cerium oxide. Showing techniques and process tips from grit to grit, this is an excellent way to get a feel for how to grind glass with diamond disks through to a polish.
Visithttp://www.hisglassworks.com for more information on how to use diamond disks to grind and polish your glass surfaces

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When the sun dims dramatically Monday morning, that would be like an entire power plant unit shutting down for the Lone Star State's electricity grid. The much-anticipated solar eclipse will wipe out about 600 megawatts worth of electricity generation from Texas' growing solar power industry, according to officials with ERCOT, which manages the Texas grid.&nbsp; ... "That is not very much," she said about eclipse's influence ... ....

Multiple media reports Thursday reported a van crashed into dozens of people in the center of Barcelona Thursday killing two and injuring several people. Local Spanish media say two armed men have entered a restaurant after a van crashed into a crowd of people, according to Reuters, and police consider the incident to be terror related. Local media reports say two people were killed instantly when struck by the van....

The number of asylum seekers who are illegally crossing into Canada from the United States more than tripled last month, according to new data released on Thursday by the Canadian government which hints at the deep fears that migrants have about the recent U.S. administration immigration crackdown ...The RoyalCanadian Mounted Police said that an additional 3,800 asylum seekers were arrested crossing the U.S ... "It's not a crisis ... ....

The top two officers and the top enlisted sailors who were in charge when the USS Fitzgerald had a collision on June 17 that killed seven crew members will face disciplinary measures after seven crew members died from the incident, a senior Navy official said on Thursday ...William F ... Sean Babbit, Moran said ... Joseph Aucoin, has over 3,000 pages of information and has reviewed enough information all ready to begin the disciplinary process....

The Guardian reported that police announced one person was arrested in relation to the attack on Thursday where someone drove a white van through the busy, pedestrian area of Las Ramblas in Barcelona, Spain which has left at least 13 dead, and more than 50 injured ...Police said that the number of the dead was "bound to rise" since at least 50 people were injured after the attack, interior minister for Catalonia, Joaquim Form said ... ... U.S....

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Key elements in the group include lanthanum, praseodymium, cerium and neodymium. According to a new study by HexaResearch, high demand for rare earth elements like cerium and lanthanum in applications like automobiles, metallurgy, phosphors, glass, etc ...Factors like limited reserves, strict regulatory guidelines, complicated extraction process and heavy capital deployment are likely to adversely affect market growth....

Cerium is a chemical element with symbol Ce and atomic number 58. Like the rare earth element it is named after, the Cerium (XCE) crypto currency is small in supply and aims to be a something the world depends on. Cerium hopes to introduce an efficient payment method which will eventually be adopted by the masses ...Cerium, Cerium exchange, Cerium info, ......

For the technically minded, Tagcoin is a crypto currency, similar to Bitcoin – it’s created using a cryptographic process by computers solving complex mathematical problems, with a maximum creation limit of about 10,000 coins a day....

In this report, the global NanoCerium Oxide market is valued at USD XX million in 2016 and is expected to reach USD XX million by the end of 2022, growing at a CAGR of XX% between 2016 and 2022. Geographically, this report is segmented into several key Regions, with production, consumption, revenue (million USD), market share and growth rate of Nano Cerium Oxide in these regions, from 2012 to 2022 (forecast), covering....

Cerium, an oxidizing agent, is as plentiful as copper, while radioactive promethium is the least common ... The mining process is costly, time-consuming, and often involves a technique known as open-pit mining that creates huge holes and disrupts the surrounding ecosystem. Such a process was used at Mountain Pass, the last remaining ......

&nbsp;While currently doing his PhD at the University of Windsor, researching about the high-field strength element (HFSE) behaviour during magmatic and hydrothermal processes in the Eldor Carbonatite, he recently discovered a carbonatite outcrop in a creek bed on the CAPProperty, which subsequently was drill tested ... Carbonatites are rare, peculiar igneous rocks formed by unusual processes and from unusual source rocks....

Cerium Oxide Nanoparticles Market...Cerium oxide nanoparticles are widely being used in several applications across various end-user industries during the last few years due to cerium’s property of promptly adjusting its electronic configuration, consistent to its environment ... Furthermore, the application scope of cerium oxide nanoparticles is increasing in end-user industries such as electronics ... Cerium Oxide Nanoparticles Market....

The car takes the premier spot, the company proudly proclaims, as the topline performance car in the “current” 5 Series lineup ... 2018 BMW M550i xDrive ... RELATED ... The exterior mirror caps, kidney grille frame, the “special” M Performance design accents on the front air intake and the two air breathers on the front fenders feature an exclusive CeriumGrey metallic finish, while the trim around the windows are the high-gloss ShadowLine ... ....

Scientists in the US have found yet another use for curcumin, the bioactive component of turmeric that is widely used in Indian cuisine, this time to treat cancer in children ... Neuroblastoma is the most common cancer in children younger than five years old ... In their study, the researchers attached curcumin to cerium oxide nanoparticles and tested the nano-curcumin formulation in cell lines of a high-risk form of neuroblastoma ... Prof ... ....

Bengaluru. Medical scientists in the US have found yet another use for curcumin, the bioactive component of turmeric that is widely used in Indian cuisine, this time to cure cancer in children ... In their study, the researchers attached curcumin to cerium oxide nanoparticles and tested the nano-curcumin formulation in cell lines of a high-risk form of neuroblastoma ... Prof ... –IANS Read More ....

GlobalRare EarthMetalsMarket. Snapshot. Rare earth metals are a group of elements consisting of the fifteen lanthanide series elements in addition to scandium and yttrium. These elements are often found in nature along with each other. While not being rare as such, they are widely dispersed across the earth and can be hard to separate ...Cerium, which is a light rare earth metal, is the most widely used rare earth metal ... About Us ... Tel....

A bizarre concoction that involves a household spice could be used to treat the childhood cancer that killed Bradley Lowery, researchers claim ... For the study, University of Central Florida researchers tested loading cerium oxide nanoparticles with curcumin, ScienceAlert reports. ....

Unique approaches to target tumour cells with nanoparticle delivery systems hold promise for treatment of resistant tumours, such as the high risk neuroblastoma, researchers said ... In the study, researchers loaded Cerium oxide nanoparticles with curcumin and coated them with dextran to test in cell lines of a high-risk form of neuroblastoma, known as MYCN-amplified, as well as non-amplified neuroblastoma....

New York...Unique approaches to target tumour cells with nanoparticle delivery systems hold promise for treatment of resistant tumours, such as the high risk neuroblastoma, researchers said ... In the study, researchers loaded Cerium oxide nanoparticles with curcumin and coated them with dextran to test in cell lines of a high-risk form of neuroblastoma, known as MYCN-amplified, as well as non-amplified neuroblastoma ... ....

Compound found in turmeric - to nanoparticles can be used to destroy treatment-resistant neuroblastoma. FilePhoto... Researchers found that nanoparticles can be used to deliver curcumin to tumour sites ... In the study, researchers loaded Cerium oxide nanoparticles with curcumin and coated them with dextran to test in cell lines of a high-risk form of neuroblastoma, known as MYCN-amplified, as well as non-amplified neuroblastoma ... ....